Polypeptide translocation across the endoplasmic reticulum membrane.

Many polypeptides have been postulated to play direct roles in secretory protein translocation based on genetic criteria, cross-linking, and antibody inhibition. Much of the excitement in the next few years will come from the resolution of current controversies. What is the nature of the ribosome receptor, and is it essential for translocation? Is BiP required for translocation in mammalian cells? Are all of the polypeptides of signal peptidase and oligosaccharyltransferase required for catalytic function, or do some of them mediate steps of protein translocation? One of the best ways to resolve these problems will be to determine the importance of each in reconstituted translocation reactions by fractionation or immunodepletion, or by analysis in a purified reaction. Another approach is to identify homologues of these molecules in S. cerevisiae and to assess their importance in in vivo translocation. Several mechanistic questions remain to be addressed as well. Does the protein translocation apparatus consist of protein, or lipid, or both? How are integral membrane proteins inserted? How is the translocon gated to admit only unfolded or partially folded secretory polypeptides and to exclude cytoplasmic molecules? The answers to these questions will illuminate a basic enigma in cell biology that has remained unanswered for many years.